One-way carsharing systems allow travelers to pick up a car at one station and return it to a different station, thereby causing vehicle imbalances across the stations. In this paper, a way to mitigate that imbalance is discussed, which is relocating vehicles between stations. For this purpose, two methods are presented, i.e., a new mathematical model to optimize the relocation operations that maximize the profitability of a carsharing service and a simulation model to study different real-time relocation policies. Both methods were applied to networks of stations in Lisbon, Portugal. Results show that relocating vehicles, using any of the methods developed, can produce significant increases in profit. For instance, in the case where the carsharing system provides maximum coverage of the city area, the imbalances in the network resulted in an operating loss of ${\ssr C} {\hskip-7pt} \raise2.4pt \hbox{$\buildrel{\vrule depth0.5pt width5.5pt}\over{\vrule depth0.5pt width5pt}$}{\hskip2pt}$1160/day when no relocation operations were performed. When relocation policies were applied, however, the simulation results indicate that profits of ${\ssr C} {\hskip-7pt} \raise2.4pt \hbox{$\buildrel{\vrule depth0.5pt width5.5pt}\over{\vrule depth0.5pt width5pt}$}{\hskip2pt}$854/day could be achieved, even with increased costs due to relocations. Using the mathematical model, the results are even better, with a reached profit of ${\ssr C} {\hskip-7pt} \raise2.4pt \hbox{$\buildrel{\vrule depth0.5pt width5.5pt}\over{\vrule depth0.5pt width5pt}$}{\hskip2pt}$3865.7/day. This improvement was achieved through reductions in the number of vehicles needed to satisfy the demand and the number of parking spaces needed at stations. These results demonstrate the importance of relocation operations for profitably providing a network of stations in one-way carsharing systems that covers the entire city, thus reaching a higher number of users.
Comparing Optimal Relocation Operations With Simulated Relocation Policies in One-Way Carsharing Systems
IEEE Transactions on Intelligent Transportation Systems ; 15 , 4 ; 1667-1675
2014-08-01
783880 byte
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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